US20070242981A1 - Development apparatus and image forming apparatus including same - Google Patents
Development apparatus and image forming apparatus including same Download PDFInfo
- Publication number
- US20070242981A1 US20070242981A1 US11/783,503 US78350307A US2007242981A1 US 20070242981 A1 US20070242981 A1 US 20070242981A1 US 78350307 A US78350307 A US 78350307A US 2007242981 A1 US2007242981 A1 US 2007242981A1
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- United States
- Prior art keywords
- developer
- stirring
- carrier
- carrying
- container
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Classifications
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/06—Apparatus for electrographic processes using a charge pattern for developing
- G03G15/08—Apparatus for electrographic processes using a charge pattern for developing using a solid developer, e.g. powder developer
- G03G15/0822—Arrangements for preparing, mixing, supplying or dispensing developer
- G03G15/0887—Arrangements for conveying and conditioning developer in the developing unit, e.g. agitating, removing impurities or humidity
- G03G15/0891—Arrangements for conveying and conditioning developer in the developing unit, e.g. agitating, removing impurities or humidity for conveying or circulating developer, e.g. augers
- G03G15/0893—Arrangements for conveying and conditioning developer in the developing unit, e.g. agitating, removing impurities or humidity for conveying or circulating developer, e.g. augers in a closed loop within the sump of the developing device
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/06—Apparatus for electrographic processes using a charge pattern for developing
- G03G15/08—Apparatus for electrographic processes using a charge pattern for developing using a solid developer, e.g. powder developer
- G03G15/0822—Arrangements for preparing, mixing, supplying or dispensing developer
- G03G15/0865—Arrangements for supplying new developer
- G03G15/0867—Arrangements for supplying new developer cylindrical developer cartridges, e.g. toner bottles for the developer replenishing opening
- G03G15/0868—Toner cartridges fulfilling a continuous function within the electrographic apparatus during the use of the supplied developer material, e.g. toner discharge on demand, storing residual toner, acting as an active closure for the developer replenishing opening
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G2215/00—Apparatus for electrophotographic processes
- G03G2215/01—Apparatus for electrophotographic processes for producing multicoloured copies
- G03G2215/0103—Plural electrographic recording members
- G03G2215/0119—Linear arrangement adjacent plural transfer points
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G2215/00—Apparatus for electrophotographic processes
- G03G2215/08—Details of powder developing device not concerning the development directly
- G03G2215/0802—Arrangements for agitating or circulating developer material
- G03G2215/0816—Agitator type
- G03G2215/0819—Agitator type two or more agitators
- G03G2215/0822—Agitator type two or more agitators with wall or blade between agitators
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G2215/00—Apparatus for electrophotographic processes
- G03G2215/08—Details of powder developing device not concerning the development directly
- G03G2215/0802—Arrangements for agitating or circulating developer material
- G03G2215/0836—Way of functioning of agitator means
- G03G2215/0838—Circulation of developer in a closed loop within the sump of the developing device
Definitions
- the present invention relates to a development apparatus mounted to an image forming apparatus of electrophotography mode such as photocopier, printer, facsimile, etc., particularly to a development apparatus which develops an electrostatic latent image formed on the surface of a photo conductor (image carrier), using two-component developer constituted of toner and carrier.
- An image forming apparatus of electrophotography mode often includes a development apparatus which develops (visualizes) an electrostatic latent image formed on the surface of a photo conductor (image carrier), using two-component developer (hereinafter may be simply referred to as developer) constituted of toner and carrier.
- developer two-component developer
- the toner is consumed in each time of development operation, but the carrier is not consumed and remains as such in the apparatus.
- the carrier is stirred in the development apparatus with the toner, and as the stirring frequency increases, the carrier deteriorates due to so-called spent that causes removal of resin coat layer from the surface of carrier and causes the toner to be adhered to the carrier surface, whereby the charging performance of developer decreases.
- Patent Document 1 discloses a development apparatus supplied with not only re-fill toner by the consumed amount, but also a small amount of carrier, so as to suppress a decrease in charging performance of developer.
- This development apparatus is arranged to discharge the extra developer resulted from supply of carrier from the developer container. Specifically, the excessive amount of developer overflows the container and is discharged from a developer overflow outlet provided on the wall of the developer container. By thus repeating supply and discharge of developer, the deteriorated developer is constantly replaced with new developer. In this way, charging performance is maintained, whereby decrease in photocopying image quality is prevented.
- the development apparatus capable of constantly replacing developer by spilling the extra developer from a developer overflow outlet is however required to appropriately adjust the amount of developer in the developer container.
- the developer container contains an excessively large amount of toner, the developer is not sufficiently stirred, and uneven coloring or fog occurs.
- the developer container contains excessively small amount of toner, the image forming of electrostatic latent image is carried out with insufficient amount of developer, which results in density irregularity, blank spots on image or the like.
- a small increase in developer amount from the appropriate range in the developer container causes a small increase in height of developer surface, and therefore, only a small amount of developer flows outside as it comes above the lower end of the developer discharging outlet. It therefore takes a while to refill the developer container until it reaches the appropriate range.
- Patent Document 2 discloses provision of a rotary wing in a carriage member (screw etc.) for carrying developer which allows local increase in height of developer surface in the region where the developer outlet is provided.
- the increased part of the surface of the developer corresponding to the rotary wing is however not discharged if the surface height falls below the certain height. On this account, the height of the developer in the developer container does not excessively decrease.
- Patent Document 3 discloses a developing apparatus including a developer outlet in a downstream portion of the carriage direction of developer carried by a stirring/carrying member (stirring carriage means), and regulation member (regulating means) having a rotary wing between the stirring/carrying member and the developer outlet.
- the regulation member serves to regulate the movement of developer toward the developer outlet, and also carry the developer in the reverse direction, thereby increasing the height of a part of the surface (projection part) of developer in front of the developer outlet (in the vicinity of the continuous entrance allowing the developer to circulate in the developer tank).
- Patent Document 1 Japanese Examined Patent Publication Tokukohei 2-21591 (published on May 15, 1990) ⁇
- Patent Document 2 Japanese Unexamined Patent Publication Tokukai 2000-81787(published on Mar. 21, 2000)
- Patent Document 3 Japanese Unexamined Patent Publication Tokukai 2001-265098 (published on Sep. 28, 2001) ⁇
- Patent Document 4 Japanese Unexamined Patent Publication Tokukaihei 5-127537 (published on May 25, 1993) ⁇
- Patent Document 5 Japanese Unexamined Patent Publication Tokukai 2001-92253(published on Apr. 6, 2001)
- the foregoing conventional structure of development apparatus does not secure high accuracy in regulation of the discharge amount of excess developer.
- the developer amount in the developer container cannot be kept within the appropriate range, and some defects may occur due to variation of the developer amount in the developer container.
- the height of the projection can be easily changed by other parameters than the developer amount.
- a likely parameter which can change the height is a change in developer fluidity, for example.
- the projection forms a gentle curve and the surface height is low when the developer fluidity is high; but the projection forms a rapid curve and the surface height is high when the developer fluidity is low. For this reason, under high fluidity, the actual discharge amount becomes less than the assumed amount. On the other hand, under low fluidity, the actual discharge amount becomes greater than the assumed amount. The adjustment of developer amount in the developer container within an appropriate range is therefore cannot be secured.
- An object of the present invention is to provide a development apparatus capable of maintaining appropriate amount of developer in the developer container by reducing influence of developer fluidity or the like. With stable stirring performance and development performance, the development apparatus of the present invention performs secure development, including the time period until the extra developer overflows and is discharged.
- the present invention also provides an image forming apparatus including the development apparatus.
- a development apparatus of the present invention comprises: a developer container for containing developer made of carrier and toner, said developer container having an opening opposite an electrostatic latent image carrier, a developer supply inlet through which new developer including carrier is supplied, and a developer outlet through which developer is discharged; a developer carrier for holding and carrying developer, rotatably positioned in a portion facing to the opening of said developer container; a developer stirring/carrying mechanism, rotatably provided in a rear side of said developer carrier, for carrying the developer into a direction in parallel to an axis of the developer carrier, while stirring the developer; and a first regulation member for regulating an upper surface of developer, provided on an adjacent and downstream portion with respect to said developer outlet in terms of travel direction of developer carried by said developer stirring/carrying mechanism.
- An image forming apparatus includes the foregoing development apparatus of the present invention.
- the upper surface of the developer carried by the first stirring/carrying member is regulated, and only the part passing below the first regulation member is carried to the downstream side. Therefore, in the upstream portion of the first regulation member in the developer carriage direction, the developer blocked by the first regulation member is accumulated, and the upper surface of the developer increases. Since the first regulation member and the developer outlet are adjacent to each other, the developer with the increased surface overflows, and is discharged from the developer outlet.
- the amount of developer passing through the first regulation member is constant regardless of the amount of developer stored in the developer container. Therefore, the increase in amount of extra developer in the developer container proportionally increases the height of upper surface of the developer blocked and accumulated in the developer container.
- the amount of developer is regulated by the first regulation member, and therefore is basically constant even though the amount varies due to supply or consumption during the return travel to the upstream of the first regulation member.
- the change in height of upper surface of the developer container due to the increase in developer amount thus appears intensively in the upstream portion of the first regulation member in the developer carriage direction.
- the surface projection of extra developer is caused by the blockage of developer by the first regulation member, it is not easily affected by other parameters than the developer amount (such as the developer fluidity etc.), compared with the projection formed by a stirring wing of the carriage screw.
- the height of the projection proportionally increases with an increase of extra developer, that is it proportionally decreases with a decrease of extra developer.
- This arrangement allows not only quick discharge of extra developer, but also suppressing influence of developer fluidity etc., thereby maintaining the developer amount in the developer container within an appropriate range.
- the surface height of the developer is kept constant. Therefore, the development is securely performed with stable stirring performance and development performance, including the time period until the extra developer overflows and is discharged.
- another development apparatus and image forming apparatus of the present invention is also capable of maintaining appropriate amount of developer in the developer container by reducing influence of developer fluidity or the like.
- the development apparatus of the present invention performs secure development, including the time period until the extra developer overflows and is discharged.
- a development apparatus of the present invention comprises: a developer container for containing developer made of carrier and toner, said developer container having an opening opposite an electrostatic latent image carrier, a developer supply inlet through which new developer including carrier is supplied, and a developer outlet through which developer is discharged; a developer carrier for holding and carrying developer, rotatably positioned in a portion facing to the opening of said developer container; a developer stirring/carrying mechanism, rotatably provided in a rear side of said developer carrier, for carrying the developer into a direction in parallel to an axis of the developer carrier, while stirring the developer, said developer stirring/carrying mechanism having first and second stirring/carrying members and a partition plate for separating the first and second stirring/carrying members except for ends of said first and second stirring/carrying members; and a first regulation member for regulating an upper surface of developer, provided in a carriage path of the first stirring/carrying member which resides in a portion more distant from said developer carrier then the second stirring/
- Another image forming apparatus includes the foregoing development apparatus of the present invention.
- the developer stirring/carrying mechanism is constituted of first and second stirring/carrying members and a partition plate for separating the first and second stirring/carrying members except for ends of said first and second stirring/carrying members.
- first and second stirring/carrying member enable circulation carriage, and the partition plate allows the two carriage paths to be separated.
- the efficiencies of stirring and carriage thus increase.
- the first regulation member is provided in a carriage path of the first stirring/carrying member which is more distant from the developer carrier than the second stirring/carrying member.
- another development apparatus and image forming apparatus of the present invention is also capable of maintaining appropriate amount of developer in the developer container by reducing influence of developer fluidity or the like.
- the development apparatus of the present invention performs secure development, including the time period until the extra developer overflows and is discharged.
- the present invention also provides an image forming apparatus including the development apparatus.
- FIG. 1 is a schematic view of a development apparatus according to one embodiment of the present invention, viewed from an upper vertical direction.
- FIG. 2 is an explanatory view of an image forming apparatus including the development apparatus shown in FIG. 1 .
- FIG. 3 is a schematic view of a development unit including the development apparatus shown in FIG. 1 .
- FIG. 4 is a schematic view showing a state of developer in the vicinity of a first regulation member in the development apparatus of FIG. 1 .
- FIG. 5 is a schematic view of a development apparatus according to one embodiment of the present invention, viewed from an upper vertical direction.
- the present invention is applicable to an image forming apparatus of electrophotography mode such as photocopier, printer, facsimile, etc., which carries out development using a two-component developer constituted of toner and carrier.
- FIG. 2 is a vertical cross-sectional view showing a structure of an image forming apparatus A according to the present embodiment.
- the image forming apparatus A of the present embodiment (hereinafter simply referred to as the image forming apparatus) forms multicolor and monochrome images on predetermined sheets (recording medium) based on image data externally supplied.
- the image forming apparatus A mainly includes exposure units 1 , development units 2 , photoconductive drums 3 , chargers 5 , cleaner units 4 , an intermediate transfer belt unit 8 , a fixing unit 12 , a paper carriage path S, a paper feeder cassette 10 and a discharge tray 15 .
- the image forming apparatus A handles color image data expressed by black(K), cyan(C), magenta(M), and yellow(Y).
- the image forming apparatus therefore includes four development units 2 ( 2 a, 2 b, 2 c, 2 d ), four photoconductive drums 3 ( 3 a, 3 b, 3 c, 3 d ), four chargers 5 ( 5 a, 5 b, 5 c, 5 d ), and four cleaner units 4 ( 4 a, 4 b, 4 c, 4 d ), so as to form four latent images of those colors.
- the reference numeral “a” corresponds to black
- “b”, “c” and “d” correspond to cyan, magenta, and yellow, respectively. They are thus broken into four image stations.
- Each photoconductive drum 3 has a photoconductor layer on its surface, and forms thereon an electrostatic latent image through charging and exposure, according to image data.
- Each charger 5 serves as a charging apparatus (charging means) for evenly charging the surface of the corresponding photoconductive drum 3 to a predetermined potential. Though the figure illustrates a contact-type charging roller, the charger 5 may be another type charger, such as a charging brush, or a charging device (eg. corona charger).
- Each exposure unit 1 serves to carry out exposure of the corresponding photoconductive drum 3 having been charged, according to supplied image data so as to form an electrostatic latent image corresponding to the image data on the surface of the photoconductive drum.
- each exposure unit 1 is realized by a laser scanning unit (LSU) containing a laser irradiation section and a reflection mirror.
- the exposure unit 1 may be made of an EL (electro luminescence) or LED (light emitting diode) writing head in which light emitting elements are aligned in an array manner.
- Each development unit 2 includes a development apparatus for visualizing an electrostatic latent image on the corresponding photoconductive drum into a toner image using the two component developer of each color (K, C, M, Y) constituted of toner and carrier; and a developer hopper for storing supplemental developer containing toner and carrier.
- the structure of the development unit 2 is described later.
- Each cleaner unit 4 serves to remove/collect residue toner on the surface of the corresponding photoconductive drum 3 after the image is transferred from the photoconductive drum 3 .
- the intermediate transfer belt unit 8 provided above the photoconductive drums 3 serves to superimpose plural toner images resulted from visualization of electrostatic latent images on the photoconductive drums 3 into a single color image.
- the intermediate transfer belt unit 8 includes an intermediate transfer belt (transfer material) 7 , an intermediate transfer belt driving roller 71 , an intermediate transfer belt tension roller 73 , an intermediate transfer belt co-driving roller 72 , intermediate transfer rollers 6 ( 6 a , 6 b, 6 c, 6 d ), and an intermediate transfer belt cleaning unit 9 .
- the intermediate transfer belt driving roller 71 , the intermediate transfer belt tension roller 73 , the intermediate transfer roller 6 , and the intermediate transfer belt co-driving roller 72 suspends the intermediate transfer belt 7 , and also rotates the intermediate transfer belt 7 in the B-direction of the figure.
- the intermediate transfer belt 7 is so provided as to be in contact with the corresponding photoconductive drum 3 .
- the plural toner images formed on the respective photoconductive drums 3 are sequentially transferred (first transfer) onto the intermediate transfer belt 7 , being superimposed on each other, so that a multicolor toner image is formed on the intermediate transfer belt 7 .
- the intermediate transfer belt 7 is formed of a film with a thickness of about 100 ⁇ m to 150 ⁇ m in the form of a loop.
- the toner images on the photoconductive drums 3 are transferred to the intermediate transfer belts 7 by the intermediate transfer rollers 6 in contact with the rear surface of the intermediate transfer belt 7 .
- the intermediate transfer roller 6 is rotatably held by an intermediate transfer roller attachment section of the intermediate transfer belt tension roller 73 .
- a high-voltage transfer bias (a high voltage with opposite polarity (+) to the voltage for charging toner ( ⁇ )) for enabling toner image transfer is applied to the intermediate transfer roller 6 .
- the intermediate transfer roller 6 discharges the transfer bias.
- the transfer bias enables the toner images on the photoconductive drums 3 to be transferred onto the intermediate transfer belt 7 .
- Each transfer roller 6 is made of a metal (such as a stainless) axis with a diameter of 8 mm-10 mm, covered by an elastic conductive material (for example, EPDM (ethylene propylene dien monomer), urethane foam etc.), that allows uniform application of a high voltage to intermediate transfer belt 7 .
- an elastic conductive material for example, EPDM (ethylene propylene dien monomer), urethane foam etc.
- the present embodiment uses the intermediate transfer roller 6 as a transfer electrode for applying the transfer bias, a brush-shaped electrode etc. may be used instead.
- the plural electrostatic latent images on the photoconductive drums 3 visualized according to the respective hues are layered on the intermediate transfer belt 7 , into a multicolor toner image corresponding to the image data supplied to the apparatus.
- the multicolor toner image constituted of layered toner images is transported by rotation of the intermediate transfer belt 7 to a secondary transfer position in which the sheet and the intermediate transfer belt 7 come in contact with each other, and is transferred onto a sheet by a transfer roller 11 (transfer apparatus) provided in the secondary transfer position.
- the intermediate transfer belt 7 and the transfer roller 11 are in close contact with pressure by a predetermined nip.
- the transfer roller 11 is supplied with a voltage (transfer voltage) for enabling toner transfer into a sheet (second transfer).
- the transfer roller 11 discharges the transfer voltage (a high-voltage with opposite polarity (+) to the voltage for charging toner ( ⁇ )).
- the transfer from the intermediate transfer belt 7 to a sheet is referred to as the second transfer
- the voltage applied to the transfer roller 11 is referred to as the second transfer voltage, so as to distinguish this transfer from the transfer from the photoconductive drum 3 to the intermediate transfer belt 7 .
- one of the transfer roller 11 and the intermediate transfer belt driving roller 71 is formed of a solid material (eg. metal) and the other is formed of a soft material such as a elastic roller (elastic rubber roller, or resin foam roller etc.).
- the residue toner on the intermediate transfer belt 7 may cause color mixing in the next process.
- an intermediate transfer belt cleaning unit 9 is provided to remove/collect the toner adhered to the intermediate transfer belt 7 .
- the intermediate transfer belt cleaning unit 9 includes a cleaning blade that is a cleaning member placed in contact with the intermediate transfer belt 7 .
- the contact portion of the intermediate transfer belt 7 with the cleaning blade is supported by the intermediate transfer belt co-driving roller 72 from the rear surface.
- a paper feeder cassette 10 is a tray for storing papers (sheets) used for image forming.
- the paper feeder cassette 10 is provided beneath the exposure unit 1 in the image forming apparatus A.
- a discharge tray 15 provided in an upper portion of the image forming apparatus A is a tray for keeping the printed sheets facing down.
- the image forming apparatus A also includes a paper carriage path S which is a substantially vertical path serving to carry the sheets from the paper feeder cassette 10 to the discharge tray 15 via the transfer roller 11 or the fixing unit 12 .
- Each carriage rollers 25 are a pair of small rollers for facilitating/subserving the carriage of sheet. Plural pairs of carriage rollers are provided along the paper carriage path S.
- the pickup roller 16 a is provided on an end portion of the paper feeder cassette 10 .
- the pickup roller 16 a is a leading roller for supplying the sheets one by one from the paper feeding cassette 10 into the paper carriage path S.
- the resist roller 14 temporarily holds a sheet being carried by the paper carriage path S and releases the sheet at a certain timing so as to transfer the sheet into the second transfer position so that the front edge of the toner image thus transferred onto the intermediate transfer belt 7 comes overlaid with the edge of the sheet.
- the fixing unit 12 includes a heat roller 31 , a pressure roller 32 etc.
- the heat roller 31 and the pressure roller 32 rotate together with the sheet therebetween.
- the heat roller 31 is adjusted to a predetermined temperature by a control section based on a signal detected by a temperature detector (not shown) so as to carry out fixing with a constant fixing temperature.
- the heat roller 31 and the pressure roller 32 thermally presses the sheet therebetween so as to fuse, mix, press the multicolor toner images so that the toner images are thermally fixed to the sheet.
- the sheet with the fixed multicolor toner image is carried to a reverse discharge path of the sheet carriage path S by the carriage rollers 25 b and 25 c. And then, the reversed sheet (with the multicolored toner image facing down) is discharged to the discharge tray 15 .
- the image forming apparatus A includes a paper feeder cassette 10 for storing the sheets at all times, and also a manual paper feeder tray 20 with which the user can carry out small number of printings without open/close operation of the paper feeder cassette 10 .
- the pickup roller 16 b is provided between the manual paper feeder tray 20 and the paper carriage path S to lead the sheets one by one to the paper carriage path S.
- the sheet carried from the paper feeder cassette 10 is transferred to the resist roller 14 by the carriage roller 25 a in the middle of the paper carriage path S.
- the sheet is then sent to the transfer roller 11 at a certain timing so that the front edge of the toner image on the intermediate transfer belt 7 comes overlaid with the edge of the sheet.
- the toner image is thus transferred onto the sheet.
- the sheet passes through the fixing unit 12 where the unfixed toner on the sheet is fused and fixed by heat.
- the sheet with the fixed image is discharged to the discharge tray 15 via the carriage rollers 25 b and 25 c (in the one-side printing mode).
- the sheet placed on the manual paper feeder tray 20 is picked up by the pickup roller 16 b, and then are transferred to the resist roller 14 via the plural carriage rollers 25 f, 25 d and 25 e.
- the sheet is then undergoes the same processes as those for the sheet from the paper feeder cassette 10 , before discharged to the discharge tray 15 (in the one-side printing mode).
- the double-side printing mode is selected, the bottom edge of the sheet having been through the fixing unit 12 after the one-side printing is caught by the carriage roller 25 c. Then, inverse rotation of the carriage roller 25 c leads the sheet to the carriage rollers 25 g and 25 h in the paper carriage path S. After that, the sheet undergoes rear side printing through the resist roller 14 , before discharged to the discharge tray 15 .
- FIG. 3 is a schematic view of the development unit 2 , viewed from a horizontal direction.
- the development unit 2 includes a developer hopper 101 , a developer transport mechanism 102 , and a development apparatus 103 .
- the developer hopper 101 is provided in a portion higher than the development apparatus 103 , and contains supplemental developer made of toner and carrier at a predetermined ratio.
- the carrier and toner may be mixed by a ratio of 1:9 (carrier: toner) for example, and this ratio of toner to the carrier is much higher compared with the developer in the developer container 111 .
- the content of toner and carrier of the supplemental developer is adjusted to an appropriate ratio depending on toner charging amount, carrier particle diameter, or the structure of image forming apparatus A.
- a developer outlet 101 a is provided on the bottom of the developer hopper 101 .
- a developer supplying roller 110 is provided in the vicinity of the developer outlet 101 a in the developer hopper 101 .
- the developer supplying roller 110 is a roller made of a porous elastic body such as urethane sponge.
- the developer supplying roller 110 transports developer from the developer hopper 101 to the developer outlet 101 a.
- the toner in the developer hopper 101 is carried to the developer outlet 101 a little by little.
- the developer carried to the developer outlet 101 a freely falls into the developer transfer tube 200 via the developer outlet 101 a and an opening end 200 a.
- a developer transport mechanism 102 serves to supply toner from the developer hopper 101 to the development apparatus 103 .
- the developer transport mechanism 102 is constituted of a developer transfer tube (developer transfer path) 200 , a driving belt 201 , a driving roller 202 , and co-driving rollers 203 a and 203 b.
- the developer transfer tube 200 is a path allowing developer to freely fall from the developer hopper 101 (sender end) so that the developer is supplied to the developer container 111 of the development apparatus 103 (receiver end). More specifically, the developer transfer tube 200 is provided between the developer hopper 101 and the developer container 111 so that one of the opening ends 200 a of the developer transfer tube 200 faces to the developer outlet 101 a of the developer hopper 101 , while the other opening end 200 b faces to the developer supply inlet 120 of the development apparatus 103 .
- the internal part of the developer container 111 and the internal part of the developer hopper 101 become continuous via the developer transfer tube 200 .
- the developer transfer tube 200 is provided between the developer hopper 101 and the developer container 111 so that the opening end 200 a and the opening end 200 b are positioned in parallel or substantially in parallel in the vertical direction of the tube 200 .
- the driving belt (transfer auxiliary member, cyclical driving member, belt member) 201 is a belt member setting around the peripheries of the co-driving rollers 203 a / 203 b and the driving roller (driving section: driving method) 202 , and is rotated by the movement of the driving roller 202 . Irregular patterns are formed on the surface of the belt.
- the through holes 200 c and 200 d are formed in parallel in the vertical direction.
- the two co-driving rollers 203 a and 203 b are provided on the through holes 200 c and 200 d.
- the driving roller 202 is provided outside the developer transfer tube 200 to be opposite the two co-driving rollers 203 a and 203 b.
- the driving roller 202 is positioned with its rotation axis orthogonal to the vertical direction of the tube 200 and its periphery opposite to the developer transfer tube 200 .
- the co-driving rollers 203 a and 203 b are positioned with their rotation axes in parallel to the rotation axis of the driving roller 202 .
- the driving belt 201 moves downward (from the side of the developer hopper 101 to the side of the development apparatus 103 of the developer transfer tube 200 ) inside the developer transfer tube 200 , and then moves upward again outside the developer transfer tube 200 .
- the driving belt 201 circulates among the co-driving rollers 203 a and 203 b and the driving roller 202 . Therefore, the free fall transfer of the developer is supported and facilitated by the moving force of the driving belt 201 as the developer comes closer or in contact with the driving belt 201 . On this account, stagnation of developer in the developer transfer tube 200 is prevented, and blockage of developer transfer tube 200 due to accumulation/expansion of the developer stagnation does not occur.
- the development apparatus 103 serves to visualize an electrostatic latent image formed on the photoconductive drum 3 . To perform the visualization, the development apparatus 103 holds the developer by the development roller 114 and supplies toner to the surface of the photoconductive drum 3 . The development apparatus 103 is arranged to constantly renew the developer as the developer is used.
- the development apparatus 103 includes a developer container 111 , a development roller (developer carrier) 114 , a doctor blade 115 , first and second carriage screws (stirring/carrying member) 112 a and 112 b, a partition plate 140 , first and second regulation members 141 and 142 .
- FIG. 1 is a schematic view of the inside of the developer container 111 , viewed from an upper vertical direction.
- the developer container 111 is a container for containing two-component developer (developer, hereinafter) made of toner and carrier. As shown in FIG. 3 , the developer container 111 includes a development opening 123 in a portion opposite the photoconductive drum 3 .
- the development roller 114 made up of a magnet roller, supplies toner from the developer container 111 to the photoconductive drum 3 .
- the development roller 114 is rotatably formed on a portion where the development opening 123 is formed, in the developer container 111 .
- the rotation direction of the development roller 114 is opposite to the rotation direction of the photoconductive drum 3 . That is, the movement directions of the photoconductive drum 3 and the development roller 114 are the same in their opposed surface.
- a doctor blade is formed on the upper end of the development opening 123 of the developer container 111 , adjacent to the development roller 114 .
- the doctor blade serves to control thickness of the developer layer formed on the surface of the development roller 114 .
- the first and second carriage screws 112 a and 112 b carry developer to the development roller 114 while stirring the developer by respective stirring blades 113 .
- the toner is charged by friction as it is stirred by the first and second carriage screws 112 a and 112 b.
- the first and second carriage screws 112 a and 112 b are provided in parallel with the development roller 114 , adjacent to the rear side of the development roller 114 (in parallel with the rotation axis direction of the development roller 114 ).
- the screw more distant from the development roller 114 is called a first carriage screw 112 a
- the screw closer to the development roller 114 is called a second carriage screw 112 b.
- a partition plate 140 is provided between the first and second carriage screws 112 a and 112 b.
- the partition plate 140 thus sections the developer container 111 into the first carriage path C where the first carriage screw 112 a is provided, and a second carriage path D where the second carriage screw 112 b is provided.
- the partition plate 140 serves to section the entire internal portion of the developer container 111 except for the rear end and the front end of the container, i.e. the two end portions of the developer container 111 in the longitudinal direction.
- the two ends (the ends in the rotation axis direction of the first and second carriage screws 112 a ) of the partition plate 140 are separated from the wall of the container.
- This provision creates two connecting sections for connecting the first and second carriage paths C and D into the front and rear sides of the developer container 111 .
- the connecting section formed on the front end is referred to as a front connecting section 126
- the connecting section formed on the rear end is referred to as a rear connecting section 127 .
- Gears are provided on the rear side of the first and second carriage screws 112 a and 112 b for transmitting driving force from a driving section (driving means) such as a motor, and the first carriage screw 112 a is rotated to carry developer from the front side to the rear side.
- driving section driving means
- the second carriage screw 112 b is rotated inversely, from the rear side to the front side.
- the developer in the developer container 111 is carried by circulating through the first carriage path C and the second carriage path D. More specifically, the developer is carried from the front side to the rear side in the first carriage path C while stirred by the first carriage screw 112 a, and then is carried to the second carriage path D through the rear connecting section 127 . Then, the developer is carried from the rear side to the front side through the second carriage path D while stirred by the second carriage screw 112 b, and travels back to the first carriage path C through the front connecting section 126 . While the developer is carried in the second carriage path D, the development roller 114 adjacent to the second carriage screw 112 b is constantly supplied with developer.
- the first and second carriage screws 112 a and 112 b and the partition plate 140 constitutes a developer stirring/carrying mechanism (developer stirring carriage means), which serves to stir the developer in the developer container 111 while transferring it in the axis direction of the development roller 114 . Further, the provision of the partition plate 140 creates first and second carriage paths C and D which are individual paths for the carriage screw 112 a and 112 b, thereby increasing efficiency in stirring/transferring the developer.
- the developer container 111 contains a developer supply inlet 120 for supplying new developer, and a developer outlet 121 for discharging developer no longer required due to the supply of new developer, as shown in FIG. 1 and FIG. 3 .
- the developer supply inlet 120 is provided on the wall covering the upper part of the first carriage path C where the first carriage screw 112 a is provided, in the front side of the developer container 111 .
- the developer transport mechanism 102 having the developer hopper 101 thereabove is attached to the developer supply inlet 120 .
- the new developer supplied from the supply inlet 120 into the developer container 111 is mixed with the existing developer by first and second carriage screws 112 a and 112 b, and are stirred and carried.
- the developer outlet 121 is formed on the side wall along the longitudinal direction of the first carriage path C where the first carriage screw 112 a is provided, in the front side of the developer container 111 .
- the overflowing developer container 111 with extra developer discharges the developer through the developer outlet 121 , the discharge amount depending on the upper surface height of the developer.
- a general developer outlet 121 is designed to discharge the same amount developer as the amount of developer supplied from the developer hopper 101 , corresponding to the toner amount required for general photocopying. For example, assume the general photocopying uses a document with a 5% black solid ratio, 0.5 g of developer is supplied corresponding to the required toner amount, and the same amount of developer is discharged from the developer container 111 .
- the developer outlet 121 is provided in more upstream portion in the direction of the developer carried by the first carriage screw 112 a than the developer supply inlet 120 , so that the developer is discharged in more upstream portion than the section of supplying new developer.
- the developer to be discharged has at least been stirred and carried by the first and second carriage screws 112 a and 112 b for one round through both the first and second carriage paths C and D. This securely prevents unwanted discharge of new developer having been just supplied.
- first regulation member 141 which resides adjacent to the developer outlet 121 in a portion more downstream in terms of the developer carriage direction.
- the first regulation member 141 regulates the upper surface of the developer so as to regulate the amount of developer passing below.
- the first regulation member 141 has a circular arc lower end along the rotation path of the first carriage screw 112 a.
- the first regulation member 141 is so provided in the first carriage path C as to fill the gap above the first carriage screw 112 a.
- first regulation member 141 With the provision of first regulation member 141 , the surface of the developer being carried in the first carriage path C by the first carriage screw 112 a is regulated, and only the part passing below the first regulation member 141 is carried to the downstream side. Therefore, as shown in FIG. 4 , in the upstream portion of the developer carriage direction, the developer blocked by the first regulation member 141 is accumulated, and the upper surface of the developer increases. Since the first regulation member 141 and the developer outlet 121 are adjacent to each other, the developer with the increased surface overflows, and is discharged from the developer outlet 121 .
- the amount of developer passing through the first regulation member 141 is constant regardless of the amount of developer stored in the developer container 111 . Therefore, the increase in amount of extra developer in the developer container 111 proportionally increases the height of upper surface of the developer blocked and accumulated in the developer container 111 .
- the amount of developer is regulated by the first regulation member 141 , and therefore is basically constant even though the amount varies due to supply or consumption during the return travel to the upstream of the first regulation member 141 .
- the change in height of upper surface of the developer container 111 due to the increase in developer amount thus appears intensively in the upstream portion of the first regulation member 141 in the developer carriage direction.
- the surface projection of extra developer is caused by the blockage of developer by the first regulation member 141 , it is not easily affected by other parameters than the developer amount (such as the developer fluidity etc.), compared with the projection formed by a stirring wing of the carriage screw. Therefore, in spite of slight variation due to the developer fluidity, the height of the projection proportionally increases with an increase of extra developer, that is it proportionally decreases with a decrease of extra developer. This arrangement allows not only quick discharge of extra developer, but also suppressing influence of developer fluidity etc., thereby maintaining the developer amount in the developer container 111 within an appropriate range.
- the surface height of the developer is kept constant. Therefore, the development is securely performed with stable stirring performance and development performance by the first and second carriage screws 112 a and 112 b, including the time period until the extra developer overflows and is discharged.
- the second regulation member 142 is provided in the first carriage path C in a portion more downstream than the developer supply inlet 120 in the developer carriage direction.
- the second regulation member 142 regulates the surface of developer.
- the developer 150 newly supplied is often carried above the flow of the existing developer as a separate flow.
- the second regulation member 142 the new developer is efficiently mixed with the flow of the existing developer by the stirring operation of the first carriage screw 112 a. A further stable development is thus ensured.
- the first regulation member 141 is provided in the vicinity of the end portion of the first carriage screw 112 a which is the end in the upstream of the developer carriage direction, and therefore stirring and carriage by the first carriage screw 112 a may be performed with the constant amount of developer in the entire part of the carriage path C. Therefore, the development is securely performed with stable stirring performance and development performance, compared with the structure in which the first regulation member 141 is provided in the vicinity of the end portion of the first carriage screw 112 a on the downstream side of the developer carriage direction.
- the surface of the stored developer is inclined with respect to the developer container 111 . If this inclination occurs in the structure in which the developer outlet 121 is provided in the axis direction end of the development roller 114 , the developer amount in the developer container 111 decreases when the developer outlet 121 is provided in a lower portion. On the other hand, when the developer outlet 121 is provided in an upper portion, the developer amount in the developer container 111 increases. The amount of developer is thus not stable in either case.
- FIG. 5 shows another preferable development apparatus 103 A in which the first regulation member 141 is provided in the central portion of the first carriage screw 112 a, in other words, in the central portion of the first carriage path C.
- the first regulation member is provided in the central portion of the carriage path of the first stirring/carrying member, and the developer outlet 121 and the developer supply inlet 120 are also provided in the central portion.
- This structure has less influence of inclination of the development apparatus 103 , and therefore more stable even under inclination of the apparatus.
- a development apparatus comprises: a developer container for containing developer made of carrier and toner, said developer container having an opening opposite an electrostatic latent image carrier, a developer supply inlet through which new developer including carrier is supplied, and a developer outlet through which developer is discharged; a developer carrier for holding and carrying developer, rotatably positioned in a portion facing to the opening of said developer container; a developer stirring/carrying mechanism, rotatably provided in a rear side of said developer carrier, for carrying the developer into a direction in parallel to an axis of the developer carrier, while stirring the developer; and a first regulation member for regulating an upper surface of developer, provided on an adjacent and downstream portion with respect to said developer outlet in terms of travel direction of developer carried by said developer stirring/carrying mechanism.
- the upper surface of the developer carried by the first stirring/carrying member is regulated, and only the part passing below the first regulation member is carried to the downstream side. Therefore, in the upstream portion of the first regulation member in the developer carriage direction, the developer blocked by the first regulation member is accumulated, and the upper surface of the developer increases. Since the first regulation member and the developer outlet are adjacent to each other, the developer with the increased surface overflows, and is discharged from the developer outlet.
- the amount of developer passing through the first regulation member is constant regardless of the amount of developer stored in the developer container. Therefore, the increase in amount of extra developer in the developer container proportionally increases the height of upper surface of the developer blocked and accumulated in the developer container.
- the amount of developer is regulated by the first regulation member, and therefore is basically constant even though the amount varies due to supply or consumption during the return travel to the upstream of the first regulation member.
- the change in height of upper surface of the developer container due to the increase in developer amount thus appears intensively in the upstream portion of the first regulation member in the developer carriage direction.
- the surface projection of extra developer is caused by the blockage of developer by the first regulation member, it is not easily affected by other parameters than the developer amount (such as the developer fluidity etc.), compared with the projection formed by a stirring wing of the carriage screw. Therefore, in spite of slight variation due to the developer fluidity, the height of the projection proportionally increases with an increase of extra developer, that is it proportionally decreases with a decrease of extra developer. This arrangement allows not only quick discharge of extra developer, but also suppressing influence of developer fluidity etc., thereby maintaining the developer amount in the developer container within an appropriate range.
- the surface height of the developer is kept constant. Therefore, the development is securely performed with stable stirring performance and development performance, including the time period until the extra developer overflows and is discharged.
- Another development apparatus comprises: a developer container for containing developer made of carrier and toner, said developer container having an opening opposite an electrostatic latent image carrier, a developer supply inlet through which new developer including carrier is supplied, and a developer outlet through which developer is discharged; a developer carrier for holding and carrying developer, rotatably positioned in a portion facing to the opening of said developer container; a developer stirring/carrying mechanism, rotatably provided in a rear side of said developer carrier, for carrying the developer into a direction in parallel to an axis of the developer carrier, while stirring the developer, said developer stirring/carrying mechanism having first and second stirring/carrying members and a partition plate for separating the first and second stirring/carrying members except for ends of said first and second stirring/carrying members; and a first regulation member for regulating an upper surface of developer, provided in a carriage path of the first stirring/carrying member which resides in a portion more distant from said developer carrier then the second stirring/carrying member, said developer outlet is formed
- the developer stirring/carrying mechanism is constituted of first and second stirring/carrying members and a partition plate for separating the first and second stirring/carrying members except for ends of said first and second stirring/carrying members.
- the provision of first and second stirring/carrying member enables circulation carriage, and the partition plate allows the two carriage paths to be separated. The efficiencies of stirring and carriage thus increase.
- the first regulation member is provided in a carriage path of the first stirring/carrying member which is more distant from the developer carrier than the second stirring/carrying member. This structure thus ensures the same effect as that of the foregoing development apparatus.
- the first regulation member is preferably provided in the vicinity of an upstream end of the carriage path of the first stirring/carrying member in terms of travel direction of developer.
- stirring and carriage by the first stirring/carrying member may be performed with the constant amount of developer in the entire part of the stirring/carriage path. Therefore, the development is securely performed with stable stirring performance and development performance, compared with the structure in which the first regulation member is provided in the vicinity of the end portion of the first stirring/carrying member on the downstream side of the developer carriage direction.
- said first regulation member is provided in a center of the carrier path of said first stirring/carrying member.
- the surface of the stored developer is inclined with respect to the developer container. If this inclination occurs in the structure in which the developer outlet is provided in the axis direction end of the development roller, the developer amount in the developer container decreases when the developer outlet is provided in a lower portion. On the other hand, when the developer outlet is provided in an upper portion, the developer amount in the developer container increases. The amount of developer is thus not stable in either case. Therefore, the foregoing structure in which the first regulation member is provided in the central portion of the carriage path of the first stirring/carrying member is subjected to less influence of inclination of the development apparatus, and therefore is more stable under inclination of the apparatus.
- the foregoing development apparatus is preferably further arranged so that said developer supply inlet is provided in a portion more downstream than said first regulation member in the carriage path of said first stirring/carrying member in terms of travel direction of developer.
- the newly supplied developer reaches the developer outlet after mixed with the existing developer. Therefore, the discharge amount of newly supplied developer is reduced, that is, the content of used developer in the discharged developer increases. Also, the position close to the first regulation member needs a longer time to reach the developer outlet, and the stirring time can be increased.
- Said first and second regulation members includes a circular arc plane extending along an external shape of the stirring/carrying member when the stirring/carrying member is rotated.
- An image forming apparatus includes the foregoing development apparatus of the present invention.
- the present invention thus provides a certain effect of provision of a development apparatus capable of maintaining appropriate amount of developer in the developer container by reducing influence of developer fluidity or the like. With stable stirring performance and development performance, the development apparatus of the present invention performs secure development, including the time period until the extra developer overflows and is discharged.
- the present invention also provides an image forming apparatus including the development apparatus.
- the developer supply used in the foregoing embodiment contains both carrier and toner at a predetermined proportion
- the effect of the present invention can also be obtained with separate supply of carrier and toner.
Abstract
Description
- This Nonprovisional application claims priority under 35 U.S.C. § 119(a) on Patent Application No. 2006/112781 filed in Japan on Apr. 14, 2006, the entire contents of which are hereby incorporated by reference.
- The present invention relates to a development apparatus mounted to an image forming apparatus of electrophotography mode such as photocopier, printer, facsimile, etc., particularly to a development apparatus which develops an electrostatic latent image formed on the surface of a photo conductor (image carrier), using two-component developer constituted of toner and carrier.
- An image forming apparatus of electrophotography mode often includes a development apparatus which develops (visualizes) an electrostatic latent image formed on the surface of a photo conductor (image carrier), using two-component developer (hereinafter may be simply referred to as developer) constituted of toner and carrier. In the development apparatus using two-component developer, the toner is consumed in each time of development operation, but the carrier is not consumed and remains as such in the apparatus. The carrier is stirred in the development apparatus with the toner, and as the stirring frequency increases, the carrier deteriorates due to so-called spent that causes removal of resin coat layer from the surface of carrier and causes the toner to be adhered to the carrier surface, whereby the charging performance of developer decreases.
- Inventions of development apparatuses capable of solving this defect have been published. For example, Patent Document 1 discloses a development apparatus supplied with not only re-fill toner by the consumed amount, but also a small amount of carrier, so as to suppress a decrease in charging performance of developer. This development apparatus is arranged to discharge the extra developer resulted from supply of carrier from the developer container. Specifically, the excessive amount of developer overflows the container and is discharged from a developer overflow outlet provided on the wall of the developer container. By thus repeating supply and discharge of developer, the deteriorated developer is constantly replaced with new developer. In this way, charging performance is maintained, whereby decrease in photocopying image quality is prevented.
- The development apparatus capable of constantly replacing developer by spilling the extra developer from a developer overflow outlet is however required to appropriately adjust the amount of developer in the developer container. When the developer container contains an excessively large amount of toner, the developer is not sufficiently stirred, and uneven coloring or fog occurs. On the other hand, when the developer container contains excessively small amount of toner, the image forming of electrostatic latent image is carried out with insufficient amount of developer, which results in density irregularity, blank spots on image or the like.
- To appropriately adjust the developer in the developer container, it is necessary to rapidly discharge the extra developer when excessively large amount of toner is supplied to the developer container. On the contrary, it is also necessary to decrease the discharge amount of developer when the amount of the developer in the developer container is insufficient.
- In a developer container in which the surface height of developer is constant, a small increase in developer amount from the appropriate range in the developer container causes a small increase in height of developer surface, and therefore, only a small amount of developer flows outside as it comes above the lower end of the developer discharging outlet. It therefore takes a while to refill the developer container until it reaches the appropriate range.
- In view of this problem, some technologies for maintaining an appropriate amount of developer in a developer container have been suggested. For example,
Patent Document 2 discloses provision of a rotary wing in a carriage member (screw etc.) for carrying developer which allows local increase in height of developer surface in the region where the developer outlet is provided. - With this structure, a part of the surface of the developer corresponding to the rotary wing increases, and the developer starts to be discharged from the developer outlet when the surface height reaches a certain height, and the discharge amount increases in proportion to the excess toner. In this way, the foregoing structure prevents excessive increase in developer amount in the developer container.
- The increased part of the surface of the developer corresponding to the rotary wing is however not discharged if the surface height falls below the certain height. On this account, the height of the developer in the developer container does not excessively decrease.
- Further,
Patent Document 3 discloses a developing apparatus including a developer outlet in a downstream portion of the carriage direction of developer carried by a stirring/carrying member (stirring carriage means), and regulation member (regulating means) having a rotary wing between the stirring/carrying member and the developer outlet. The regulation member serves to regulate the movement of developer toward the developer outlet, and also carry the developer in the reverse direction, thereby increasing the height of a part of the surface (projection part) of developer in front of the developer outlet (in the vicinity of the continuous entrance allowing the developer to circulate in the developer tank). - In this manner, when the developer amount in the developer container increases due to supply of new developer, the surface of the projection part of developer comes higher than the lower end of the developer outlet, and the part which came higher than the lower end is discharged as excess developer.
- Further, with the provision of regulation plate to the continuous entrance, the change in surface height of the projection part in response to developer supply occurs more intensively.
- Patent Document 1: Japanese Examined Patent Publication Tokukohei 2-21591 (published on May 15, 1990)┘
- Patent Document 2: Japanese Unexamined Patent Publication Tokukai 2000-81787(published on Mar. 21, 2000)
- Patent Document 3: Japanese Unexamined Patent Publication Tokukai 2001-265098 (published on Sep. 28, 2001)┘
- Patent Document 4: Japanese Unexamined Patent Publication Tokukaihei 5-127537 (published on May 25, 1993)┘
- Patent Document 5: Japanese Unexamined Patent Publication Tokukai 2001-92253(published on Apr. 6, 2001)
- However, the foregoing conventional structure of development apparatus does not secure high accuracy in regulation of the discharge amount of excess developer. Particularly, when the fluidity of developer is changed, the developer amount in the developer container cannot be kept within the appropriate range, and some defects may occur due to variation of the developer amount in the developer container.
- Specifically, in the structures of the
foregoing Patent Documents - To be more specific, even with the same developer amount in the developer container, the projection forms a gentle curve and the surface height is low when the developer fluidity is high; but the projection forms a rapid curve and the surface height is high when the developer fluidity is low. For this reason, under high fluidity, the actual discharge amount becomes less than the assumed amount. On the other hand, under low fluidity, the actual discharge amount becomes greater than the assumed amount. The adjustment of developer amount in the developer container within an appropriate range is therefore cannot be secured.
- Further, when the developer amount in the developer container is large, a larger amount of developer needs to be stirred and carried until the excess developer is discharged. This causes a problem of unstable stirring or developing performance, which makes development operation insecure.
- An object of the present invention is to provide a development apparatus capable of maintaining appropriate amount of developer in the developer container by reducing influence of developer fluidity or the like. With stable stirring performance and development performance, the development apparatus of the present invention performs secure development, including the time period until the extra developer overflows and is discharged. The present invention also provides an image forming apparatus including the development apparatus.
- In order to attain the foregoing objective, a development apparatus of the present invention comprises: a developer container for containing developer made of carrier and toner, said developer container having an opening opposite an electrostatic latent image carrier, a developer supply inlet through which new developer including carrier is supplied, and a developer outlet through which developer is discharged; a developer carrier for holding and carrying developer, rotatably positioned in a portion facing to the opening of said developer container; a developer stirring/carrying mechanism, rotatably provided in a rear side of said developer carrier, for carrying the developer into a direction in parallel to an axis of the developer carrier, while stirring the developer; and a first regulation member for regulating an upper surface of developer, provided on an adjacent and downstream portion with respect to said developer outlet in terms of travel direction of developer carried by said developer stirring/carrying mechanism.
- An image forming apparatus according to the present invention includes the foregoing development apparatus of the present invention.
- With this arrangement having a first regulation member, the upper surface of the developer carried by the first stirring/carrying member is regulated, and only the part passing below the first regulation member is carried to the downstream side. Therefore, in the upstream portion of the first regulation member in the developer carriage direction, the developer blocked by the first regulation member is accumulated, and the upper surface of the developer increases. Since the first regulation member and the developer outlet are adjacent to each other, the developer with the increased surface overflows, and is discharged from the developer outlet.
- The amount of developer passing through the first regulation member is constant regardless of the amount of developer stored in the developer container. Therefore, the increase in amount of extra developer in the developer container proportionally increases the height of upper surface of the developer blocked and accumulated in the developer container.
- Moreover, in the downstream of the first regulation member in the developer carriage direction, the amount of developer is regulated by the first regulation member, and therefore is basically constant even though the amount varies due to supply or consumption during the return travel to the upstream of the first regulation member. The change in height of upper surface of the developer container due to the increase in developer amount thus appears intensively in the upstream portion of the first regulation member in the developer carriage direction.
- Therefore, even if the change in height of upper surface is small for the whole developer container, it appears intensively in a certain point, and therefore appears as a large change in surface height in the vicinity of the developer outlet. Consequently, it becomes possible to discharge the extra developer right away from the developer outlet. The developer amount in the developer container is thus kept within an appropriate range.
- Moreover, since the surface projection of extra developer is caused by the blockage of developer by the first regulation member, it is not easily affected by other parameters than the developer amount (such as the developer fluidity etc.), compared with the projection formed by a stirring wing of the carriage screw.
- Therefore, in spite of slight variation due to the developer fluidity, the height of the projection proportionally increases with an increase of extra developer, that is it proportionally decreases with a decrease of extra developer. This arrangement allows not only quick discharge of extra developer, but also suppressing influence of developer fluidity etc., thereby maintaining the developer amount in the developer container within an appropriate range.
- Further, in the area outside the developer accumulation region in the upstream of the first regulation member, the surface height of the developer is kept constant. Therefore, the development is securely performed with stable stirring performance and development performance, including the time period until the extra developer overflows and is discharged.
- With this effect, another development apparatus and image forming apparatus of the present invention is also capable of maintaining appropriate amount of developer in the developer container by reducing influence of developer fluidity or the like. With stable stirring performance and development performance, the development apparatus of the present invention performs secure development, including the time period until the extra developer overflows and is discharged.
- In order to attain the foregoing objective, a development apparatus of the present invention comprises: a developer container for containing developer made of carrier and toner, said developer container having an opening opposite an electrostatic latent image carrier, a developer supply inlet through which new developer including carrier is supplied, and a developer outlet through which developer is discharged; a developer carrier for holding and carrying developer, rotatably positioned in a portion facing to the opening of said developer container; a developer stirring/carrying mechanism, rotatably provided in a rear side of said developer carrier, for carrying the developer into a direction in parallel to an axis of the developer carrier, while stirring the developer, said developer stirring/carrying mechanism having first and second stirring/carrying members and a partition plate for separating the first and second stirring/carrying members except for ends of said first and second stirring/carrying members; and a first regulation member for regulating an upper surface of developer, provided in a carriage path of the first stirring/carrying member which resides in a portion more distant from said developer carrier then the second stirring/carrying member, said developer outlet is formed on an adjacent and upstream portion with respect to said first regulation member in terms of travel direction of developer.
- Another image forming apparatus according to the present invention includes the foregoing development apparatus of the present invention.
- In this structure, the developer stirring/carrying mechanism is constituted of first and second stirring/carrying members and a partition plate for separating the first and second stirring/carrying members except for ends of said first and second stirring/carrying members.
- The provision of first and second stirring/carrying member enables circulation carriage, and the partition plate allows the two carriage paths to be separated. The efficiencies of stirring and carriage thus increase.
- In this structure, the first regulation member is provided in a carriage path of the first stirring/carrying member which is more distant from the developer carrier than the second stirring/carrying member. This structure thus ensures the same effect as that of the foregoing development apparatus.
- With this effect, another development apparatus and image forming apparatus of the present invention is also capable of maintaining appropriate amount of developer in the developer container by reducing influence of developer fluidity or the like. With stable stirring performance and development performance, the development apparatus of the present invention performs secure development, including the time period until the extra developer overflows and is discharged. The present invention also provides an image forming apparatus including the development apparatus.
- Additional objects, features, and strengths of the present invention will be made clear by the description below. Further, the advantages of the present invention will be evident from the following explanation in reference to the drawings.
-
FIG. 1 is a schematic view of a development apparatus according to one embodiment of the present invention, viewed from an upper vertical direction. -
FIG. 2 is an explanatory view of an image forming apparatus including the development apparatus shown inFIG. 1 . -
FIG. 3 is a schematic view of a development unit including the development apparatus shown inFIG. 1 . -
FIG. 4 is a schematic view showing a state of developer in the vicinity of a first regulation member in the development apparatus ofFIG. 1 . -
FIG. 5 is a schematic view of a development apparatus according to one embodiment of the present invention, viewed from an upper vertical direction. - The present invention is applicable to an image forming apparatus of electrophotography mode such as photocopier, printer, facsimile, etc., which carries out development using a two-component developer constituted of toner and carrier.
-
FIG. 2 is a vertical cross-sectional view showing a structure of an image forming apparatus A according to the present embodiment. The image forming apparatus A of the present embodiment (hereinafter simply referred to as the image forming apparatus) forms multicolor and monochrome images on predetermined sheets (recording medium) based on image data externally supplied. As shown inFIG. 2 , the image forming apparatus A mainly includes exposure units 1,development units 2,photoconductive drums 3, chargers 5, cleaner units 4, an intermediatetransfer belt unit 8, a fixingunit 12, a paper carriage path S, apaper feeder cassette 10 and adischarge tray 15. - The image forming apparatus A handles color image data expressed by black(K), cyan(C), magenta(M), and yellow(Y). The image forming apparatus therefore includes four development units 2 (2 a, 2 b, 2 c, 2 d), four photoconductive drums 3 (3 a, 3 b, 3 c, 3 d), four chargers 5(5 a, 5 b, 5 c, 5 d), and four cleaner units 4 (4 a, 4 b, 4 c, 4 d), so as to form four latent images of those colors. In each unit, the reference numeral “a” corresponds to black, and “b”, “c” and “d” correspond to cyan, magenta, and yellow, respectively. They are thus broken into four image stations.
- Each
photoconductive drum 3 has a photoconductor layer on its surface, and forms thereon an electrostatic latent image through charging and exposure, according to image data. Each charger 5 serves as a charging apparatus (charging means) for evenly charging the surface of the correspondingphotoconductive drum 3 to a predetermined potential. Though the figure illustrates a contact-type charging roller, the charger 5 may be another type charger, such as a charging brush, or a charging device (eg. corona charger). - Each exposure unit 1 serves to carry out exposure of the corresponding
photoconductive drum 3 having been charged, according to supplied image data so as to form an electrostatic latent image corresponding to the image data on the surface of the photoconductive drum. InFIG. 2 , each exposure unit 1 is realized by a laser scanning unit (LSU) containing a laser irradiation section and a reflection mirror. Note that, the exposure unit 1 may be made of an EL (electro luminescence) or LED (light emitting diode) writing head in which light emitting elements are aligned in an array manner. - Each
development unit 2 includes a development apparatus for visualizing an electrostatic latent image on the corresponding photoconductive drum into a toner image using the two component developer of each color (K, C, M, Y) constituted of toner and carrier; and a developer hopper for storing supplemental developer containing toner and carrier. The structure of thedevelopment unit 2 is described later. - Each cleaner unit 4 serves to remove/collect residue toner on the surface of the corresponding
photoconductive drum 3 after the image is transferred from thephotoconductive drum 3. - The intermediate
transfer belt unit 8 provided above thephotoconductive drums 3 serves to superimpose plural toner images resulted from visualization of electrostatic latent images on thephotoconductive drums 3 into a single color image. The intermediatetransfer belt unit 8 includes an intermediate transfer belt (transfer material) 7, an intermediate transferbelt driving roller 71, an intermediate transferbelt tension roller 73, an intermediate transfer beltco-driving roller 72, intermediate transfer rollers 6 (6 a, 6 b, 6 c, 6 d), and an intermediate transferbelt cleaning unit 9. - The intermediate transfer
belt driving roller 71, the intermediate transferbelt tension roller 73, the intermediate transfer roller 6, and the intermediate transfer beltco-driving roller 72 suspends theintermediate transfer belt 7, and also rotates theintermediate transfer belt 7 in the B-direction of the figure. - The
intermediate transfer belt 7 is so provided as to be in contact with the correspondingphotoconductive drum 3. The plural toner images formed on the respectivephotoconductive drums 3 are sequentially transferred (first transfer) onto theintermediate transfer belt 7, being superimposed on each other, so that a multicolor toner image is formed on theintermediate transfer belt 7. - The
intermediate transfer belt 7 is formed of a film with a thickness of about 100 μm to 150 μm in the form of a loop. - The toner images on the
photoconductive drums 3 are transferred to theintermediate transfer belts 7 by the intermediate transfer rollers 6 in contact with the rear surface of theintermediate transfer belt 7. - The intermediate transfer roller 6 is rotatably held by an intermediate transfer roller attachment section of the intermediate transfer
belt tension roller 73. A high-voltage transfer bias (a high voltage with opposite polarity (+) to the voltage for charging toner (−)) for enabling toner image transfer is applied to the intermediate transfer roller 6. The intermediate transfer roller 6 discharges the transfer bias. The transfer bias enables the toner images on thephotoconductive drums 3 to be transferred onto theintermediate transfer belt 7. - Each transfer roller 6 is made of a metal (such as a stainless) axis with a diameter of 8 mm-10 mm, covered by an elastic conductive material (for example, EPDM (ethylene propylene dien monomer), urethane foam etc.), that allows uniform application of a high voltage to
intermediate transfer belt 7. Though the present embodiment uses the intermediate transfer roller 6 as a transfer electrode for applying the transfer bias, a brush-shaped electrode etc. may be used instead. - In this manner, the plural electrostatic latent images on the
photoconductive drums 3 visualized according to the respective hues are layered on theintermediate transfer belt 7, into a multicolor toner image corresponding to the image data supplied to the apparatus. - The multicolor toner image constituted of layered toner images is transported by rotation of the
intermediate transfer belt 7 to a secondary transfer position in which the sheet and theintermediate transfer belt 7 come in contact with each other, and is transferred onto a sheet by a transfer roller 11 (transfer apparatus) provided in the secondary transfer position. Theintermediate transfer belt 7 and the transfer roller 11 are in close contact with pressure by a predetermined nip. - The transfer roller 11 is supplied with a voltage (transfer voltage) for enabling toner transfer into a sheet (second transfer). The transfer roller 11 discharges the transfer voltage (a high-voltage with opposite polarity (+) to the voltage for charging toner (−)).
- Hereinafter, the transfer from the
intermediate transfer belt 7 to a sheet is referred to as the second transfer, and the voltage applied to the transfer roller 11 is referred to as the second transfer voltage, so as to distinguish this transfer from the transfer from thephotoconductive drum 3 to theintermediate transfer belt 7. - Further, to constantly provide the same nip between the transfer roller 11 and the intermediate transfer
belt driving roller 71, one of the transfer roller 11 and the intermediate transferbelt driving roller 71 is formed of a solid material (eg. metal) and the other is formed of a soft material such as a elastic roller (elastic rubber roller, or resin foam roller etc.). - The residue toner on the
intermediate transfer belt 7, that is the toner having not been transferred onto the sheet by the transfer roller 11, may cause color mixing in the next process. To avoid this, an intermediate transferbelt cleaning unit 9 is provided to remove/collect the toner adhered to theintermediate transfer belt 7. - The intermediate transfer
belt cleaning unit 9 includes a cleaning blade that is a cleaning member placed in contact with theintermediate transfer belt 7. The contact portion of theintermediate transfer belt 7 with the cleaning blade is supported by the intermediate transfer beltco-driving roller 72 from the rear surface. - A
paper feeder cassette 10 is a tray for storing papers (sheets) used for image forming. Thepaper feeder cassette 10 is provided beneath the exposure unit 1 in the image forming apparatus A. - A
discharge tray 15 provided in an upper portion of the image forming apparatus A is a tray for keeping the printed sheets facing down. - The image forming apparatus A also includes a paper carriage path S which is a substantially vertical path serving to carry the sheets from the
paper feeder cassette 10 to thedischarge tray 15 via the transfer roller 11 or the fixingunit 12. - In the vicinity of the paper carrying path S extending from the
paper feeder cassette 10 to thedischarge tray 15, apart from the transfer roller 11,pickup rollers roller 14, a fixingunit 12, carriage rollers 25 for carrying sheets etc. are provided. - Each carriage rollers 25 (25 a to 25 h) are a pair of small rollers for facilitating/subserving the carriage of sheet. Plural pairs of carriage rollers are provided along the paper carriage path S.
- The
pickup roller 16 a is provided on an end portion of thepaper feeder cassette 10. Thepickup roller 16 a is a leading roller for supplying the sheets one by one from thepaper feeding cassette 10 into the paper carriage path S. - The resist
roller 14 temporarily holds a sheet being carried by the paper carriage path S and releases the sheet at a certain timing so as to transfer the sheet into the second transfer position so that the front edge of the toner image thus transferred onto theintermediate transfer belt 7 comes overlaid with the edge of the sheet. - The fixing
unit 12 includes aheat roller 31, apressure roller 32 etc. Theheat roller 31 and thepressure roller 32 rotate together with the sheet therebetween. - Further, the
heat roller 31 is adjusted to a predetermined temperature by a control section based on a signal detected by a temperature detector (not shown) so as to carry out fixing with a constant fixing temperature. Theheat roller 31 and thepressure roller 32 thermally presses the sheet therebetween so as to fuse, mix, press the multicolor toner images so that the toner images are thermally fixed to the sheet. - The sheet with the fixed multicolor toner image is carried to a reverse discharge path of the sheet carriage path S by the
carriage rollers discharge tray 15. - The following explains the sheet carriage path. The image forming apparatus A includes a
paper feeder cassette 10 for storing the sheets at all times, and also a manualpaper feeder tray 20 with which the user can carry out small number of printings without open/close operation of thepaper feeder cassette 10. Note that, thepickup roller 16 b is provided between the manualpaper feeder tray 20 and the paper carriage path S to lead the sheets one by one to the paper carriage path S. - The sheet carried from the
paper feeder cassette 10 is transferred to the resistroller 14 by thecarriage roller 25 a in the middle of the paper carriage path S. The sheet is then sent to the transfer roller 11 at a certain timing so that the front edge of the toner image on theintermediate transfer belt 7 comes overlaid with the edge of the sheet. The toner image is thus transferred onto the sheet. Then, the sheet passes through the fixingunit 12 where the unfixed toner on the sheet is fused and fixed by heat. The sheet with the fixed image is discharged to thedischarge tray 15 via thecarriage rollers - On the other hand, the sheet placed on the manual
paper feeder tray 20 is picked up by thepickup roller 16 b, and then are transferred to the resistroller 14 via theplural carriage rollers paper feeder cassette 10, before discharged to the discharge tray 15 (in the one-side printing mode). - At this time, if the double-side printing mode is selected, the bottom edge of the sheet having been through the fixing
unit 12 after the one-side printing is caught by thecarriage roller 25 c. Then, inverse rotation of thecarriage roller 25 c leads the sheet to thecarriage rollers roller 14, before discharged to thedischarge tray 15. - Next, the following explains details of
development unit 2 provided in the image forming apparatus A.FIG. 3 is a schematic view of thedevelopment unit 2, viewed from a horizontal direction. As shown inFIG. 3 , thedevelopment unit 2 includes adeveloper hopper 101, adeveloper transport mechanism 102, and adevelopment apparatus 103. - The
developer hopper 101 is provided in a portion higher than thedevelopment apparatus 103, and contains supplemental developer made of toner and carrier at a predetermined ratio. The carrier and toner may be mixed by a ratio of 1:9 (carrier: toner) for example, and this ratio of toner to the carrier is much higher compared with the developer in thedeveloper container 111. Note that, the content of toner and carrier of the supplemental developer is adjusted to an appropriate ratio depending on toner charging amount, carrier particle diameter, or the structure of image forming apparatus A. - On the bottom of the
developer hopper 101, adeveloper outlet 101 a is provided. Adeveloper supplying roller 110 is provided in the vicinity of thedeveloper outlet 101 a in thedeveloper hopper 101. - The
developer supplying roller 110 is a roller made of a porous elastic body such as urethane sponge. Thedeveloper supplying roller 110 transports developer from thedeveloper hopper 101 to thedeveloper outlet 101 a. With this arrangement, when thedeveloper supplying roller 110 is rotated in thedeveloper hopper 101, the toner in thedeveloper hopper 101 is carried to thedeveloper outlet 101 a little by little. The developer carried to thedeveloper outlet 101 a freely falls into thedeveloper transfer tube 200 via thedeveloper outlet 101 a and anopening end 200 a. - A
developer transport mechanism 102 serves to supply toner from thedeveloper hopper 101 to thedevelopment apparatus 103. Thedeveloper transport mechanism 102 is constituted of a developer transfer tube (developer transfer path) 200, a drivingbelt 201, a drivingroller 202, andco-driving rollers - The
developer transfer tube 200 is a path allowing developer to freely fall from the developer hopper 101 (sender end) so that the developer is supplied to thedeveloper container 111 of the development apparatus 103 (receiver end). More specifically, thedeveloper transfer tube 200 is provided between thedeveloper hopper 101 and thedeveloper container 111 so that one of the opening ends 200 a of thedeveloper transfer tube 200 faces to thedeveloper outlet 101 a of thedeveloper hopper 101, while the other openingend 200 b faces to thedeveloper supply inlet 120 of thedevelopment apparatus 103. - With this structure, in the
development apparatus 103, the internal part of thedeveloper container 111 and the internal part of thedeveloper hopper 101 become continuous via thedeveloper transfer tube 200. Note that, thedeveloper transfer tube 200 is provided between thedeveloper hopper 101 and thedeveloper container 111 so that the openingend 200 a and the openingend 200 b are positioned in parallel or substantially in parallel in the vertical direction of thetube 200. - The driving belt (transfer auxiliary member, cyclical driving member, belt member) 201 is a belt member setting around the peripheries of the
co-driving rollers 203 a/203 b and the driving roller (driving section: driving method) 202, and is rotated by the movement of the drivingroller 202. Irregular patterns are formed on the surface of the belt. - On the wall of the
developer transfer tube 200, the throughholes co-driving rollers holes roller 202 is provided outside thedeveloper transfer tube 200 to be opposite the twoco-driving rollers - The driving
roller 202 is positioned with its rotation axis orthogonal to the vertical direction of thetube 200 and its periphery opposite to thedeveloper transfer tube 200. Theco-driving rollers roller 202. - With this layout of the
co-driving rollers roller 202, it is possible to suspend the drivingbelt 201 by theco-driving roller developer transfer tube 200, as shown inFIG. 3 . - When moving downward in the vertical direction of the
developer transfer tube 200 by the rotation of the drivingroller 202, the drivingbelt 201 moves downward (from the side of thedeveloper hopper 101 to the side of thedevelopment apparatus 103 of the developer transfer tube 200) inside thedeveloper transfer tube 200, and then moves upward again outside thedeveloper transfer tube 200. - That is, the driving
belt 201 circulates among theco-driving rollers roller 202. Therefore, the free fall transfer of the developer is supported and facilitated by the moving force of the drivingbelt 201 as the developer comes closer or in contact with the drivingbelt 201. On this account, stagnation of developer in thedeveloper transfer tube 200 is prevented, and blockage ofdeveloper transfer tube 200 due to accumulation/expansion of the developer stagnation does not occur. - The
development apparatus 103 serves to visualize an electrostatic latent image formed on thephotoconductive drum 3. To perform the visualization, thedevelopment apparatus 103 holds the developer by thedevelopment roller 114 and supplies toner to the surface of thephotoconductive drum 3. Thedevelopment apparatus 103 is arranged to constantly renew the developer as the developer is used. - As shown in
FIG. 1 andFIG. 3 , thedevelopment apparatus 103 includes adeveloper container 111, a development roller (developer carrier) 114, adoctor blade 115, first and second carriage screws (stirring/carrying member) 112 a and 112 b, apartition plate 140, first andsecond regulation members FIG. 1 is a schematic view of the inside of thedeveloper container 111, viewed from an upper vertical direction. - The
developer container 111 is a container for containing two-component developer (developer, hereinafter) made of toner and carrier. As shown inFIG. 3 , thedeveloper container 111 includes adevelopment opening 123 in a portion opposite thephotoconductive drum 3. - The
development roller 114, made up of a magnet roller, supplies toner from thedeveloper container 111 to thephotoconductive drum 3. Thedevelopment roller 114 is rotatably formed on a portion where thedevelopment opening 123 is formed, in thedeveloper container 111. The rotation direction of thedevelopment roller 114 is opposite to the rotation direction of thephotoconductive drum 3. That is, the movement directions of thephotoconductive drum 3 and thedevelopment roller 114 are the same in their opposed surface. - A doctor blade is formed on the upper end of the
development opening 123 of thedeveloper container 111, adjacent to thedevelopment roller 114. The doctor blade serves to control thickness of the developer layer formed on the surface of thedevelopment roller 114. - The first and second carriage screws 112 a and 112 b carry developer to the
development roller 114 while stirring the developer byrespective stirring blades 113. The toner is charged by friction as it is stirred by the first and second carriage screws 112 a and 112 b. - As shown in
FIGS. 1 and 3 , the first and second carriage screws 112 a and 112 b are provided in parallel with thedevelopment roller 114, adjacent to the rear side of the development roller 114 (in parallel with the rotation axis direction of the development roller 114). In the present embodiment, the screw more distant from thedevelopment roller 114 is called afirst carriage screw 112 a, and the screw closer to thedevelopment roller 114 is called asecond carriage screw 112 b. - To distinguish between their areas, a
partition plate 140 is provided between the first and second carriage screws 112 a and 112 b. - The
partition plate 140 thus sections thedeveloper container 111 into the first carriage path C where thefirst carriage screw 112 a is provided, and a second carriage path D where thesecond carriage screw 112 b is provided. - The
partition plate 140 serves to section the entire internal portion of thedeveloper container 111 except for the rear end and the front end of the container, i.e. the two end portions of thedeveloper container 111 in the longitudinal direction. The two ends (the ends in the rotation axis direction of the first and second carriage screws 112 a) of thepartition plate 140 are separated from the wall of the container. This provision creates two connecting sections for connecting the first and second carriage paths C and D into the front and rear sides of thedeveloper container 111. Hereinafter, the connecting section formed on the front end is referred to as afront connecting section 126, and the connecting section formed on the rear end is referred to as arear connecting section 127. - Gears are provided on the rear side of the first and second carriage screws 112 a and 112 b for transmitting driving force from a driving section (driving means) such as a motor, and the
first carriage screw 112 a is rotated to carry developer from the front side to the rear side. Thesecond carriage screw 112 b is rotated inversely, from the rear side to the front side. - With this arrangement, the developer in the
developer container 111 is carried by circulating through the first carriage path C and the second carriage path D. More specifically, the developer is carried from the front side to the rear side in the first carriage path C while stirred by thefirst carriage screw 112 a, and then is carried to the second carriage path D through therear connecting section 127. Then, the developer is carried from the rear side to the front side through the second carriage path D while stirred by thesecond carriage screw 112 b, and travels back to the first carriage path C through the front connectingsection 126. While the developer is carried in the second carriage path D, thedevelopment roller 114 adjacent to thesecond carriage screw 112 b is constantly supplied with developer. - The first and second carriage screws 112 a and 112 b and the
partition plate 140 constitutes a developer stirring/carrying mechanism (developer stirring carriage means), which serves to stir the developer in thedeveloper container 111 while transferring it in the axis direction of thedevelopment roller 114. Further, the provision of thepartition plate 140 creates first and second carriage paths C and D which are individual paths for thecarriage screw - Further, the
developer container 111 contains adeveloper supply inlet 120 for supplying new developer, and adeveloper outlet 121 for discharging developer no longer required due to the supply of new developer, as shown inFIG. 1 andFIG. 3 . - As shown in
FIG. 3 , thedeveloper supply inlet 120 is provided on the wall covering the upper part of the first carriage path C where thefirst carriage screw 112 a is provided, in the front side of thedeveloper container 111. Thedeveloper transport mechanism 102 having thedeveloper hopper 101 thereabove is attached to thedeveloper supply inlet 120. The new developer supplied from thesupply inlet 120 into thedeveloper container 111 is mixed with the existing developer by first and second carriage screws 112 a and 112 b, and are stirred and carried. - As shown in
FIG. 1 , thedeveloper outlet 121 is formed on the side wall along the longitudinal direction of the first carriage path C where thefirst carriage screw 112 a is provided, in the front side of thedeveloper container 111. The overflowingdeveloper container 111 with extra developer discharges the developer through thedeveloper outlet 121, the discharge amount depending on the upper surface height of the developer. - A
general developer outlet 121 is designed to discharge the same amount developer as the amount of developer supplied from thedeveloper hopper 101, corresponding to the toner amount required for general photocopying. For example, assume the general photocopying uses a document with a 5% black solid ratio, 0.5 g of developer is supplied corresponding to the required toner amount, and the same amount of developer is discharged from thedeveloper container 111. - Further, in this embodiment, the
developer outlet 121 is provided in more upstream portion in the direction of the developer carried by thefirst carriage screw 112 a than thedeveloper supply inlet 120, so that the developer is discharged in more upstream portion than the section of supplying new developer. With this layout, the developer to be discharged has at least been stirred and carried by the first and second carriage screws 112 a and 112 b for one round through both the first and second carriage paths C and D. This securely prevents unwanted discharge of new developer having been just supplied. - A significant point of this structure is provision of
first regulation member 141 which resides adjacent to thedeveloper outlet 121 in a portion more downstream in terms of the developer carriage direction. Thefirst regulation member 141 regulates the upper surface of the developer so as to regulate the amount of developer passing below. - As shown in
FIG. 3 , thefirst regulation member 141 has a circular arc lower end along the rotation path of thefirst carriage screw 112 a. Thefirst regulation member 141 is so provided in the first carriage path C as to fill the gap above thefirst carriage screw 112 a. - With the provision of
first regulation member 141, the surface of the developer being carried in the first carriage path C by thefirst carriage screw 112 a is regulated, and only the part passing below thefirst regulation member 141 is carried to the downstream side. Therefore, as shown inFIG. 4 , in the upstream portion of the developer carriage direction, the developer blocked by thefirst regulation member 141 is accumulated, and the upper surface of the developer increases. Since thefirst regulation member 141 and thedeveloper outlet 121 are adjacent to each other, the developer with the increased surface overflows, and is discharged from thedeveloper outlet 121. - The amount of developer passing through the
first regulation member 141 is constant regardless of the amount of developer stored in thedeveloper container 111. Therefore, the increase in amount of extra developer in thedeveloper container 111 proportionally increases the height of upper surface of the developer blocked and accumulated in thedeveloper container 111. - Moreover, in the downstream of the
first regulation member 141 in the developer carriage direction, the amount of developer is regulated by thefirst regulation member 141, and therefore is basically constant even though the amount varies due to supply or consumption during the return travel to the upstream of thefirst regulation member 141. The change in height of upper surface of thedeveloper container 111 due to the increase in developer amount thus appears intensively in the upstream portion of thefirst regulation member 141 in the developer carriage direction. - Therefore, even if the change in height of upper surface is small for the
whole developer container 111, it appears intensively in a certain point, and therefore appears as a large change in surface height in the vicinity of thedeveloper outlet 121. Consequently, it becomes possible to discharge the extra developer right away from thedeveloper outlet 121. The developer amount in thedeveloper container 111 is thus kept within an appropriate range. - Moreover, since the surface projection of extra developer is caused by the blockage of developer by the
first regulation member 141, it is not easily affected by other parameters than the developer amount (such as the developer fluidity etc.), compared with the projection formed by a stirring wing of the carriage screw. Therefore, in spite of slight variation due to the developer fluidity, the height of the projection proportionally increases with an increase of extra developer, that is it proportionally decreases with a decrease of extra developer. This arrangement allows not only quick discharge of extra developer, but also suppressing influence of developer fluidity etc., thereby maintaining the developer amount in thedeveloper container 111 within an appropriate range. - Further, as described, in the area outside the developer accumulation region in the upstream of the
first regulation member 141, the surface height of the developer is kept constant. Therefore, the development is securely performed with stable stirring performance and development performance by the first and second carriage screws 112 a and 112 b, including the time period until the extra developer overflows and is discharged. - Further, in the image forming apparatus A, the
second regulation member 142 is provided in the first carriage path C in a portion more downstream than thedeveloper supply inlet 120 in the developer carriage direction. Thesecond regulation member 142 regulates the surface of developer. As shown inFIG. 4 , thedeveloper 150 newly supplied is often carried above the flow of the existing developer as a separate flow. However, with the regulation of developer surface by thesecond regulation member 142, the new developer is efficiently mixed with the flow of the existing developer by the stirring operation of thefirst carriage screw 112 a. A further stable development is thus ensured. - Further, in the image forming apparatus A, the
first regulation member 141 is provided in the vicinity of the end portion of thefirst carriage screw 112 a which is the end in the upstream of the developer carriage direction, and therefore stirring and carriage by thefirst carriage screw 112 a may be performed with the constant amount of developer in the entire part of the carriage path C. Therefore, the development is securely performed with stable stirring performance and development performance, compared with the structure in which thefirst regulation member 141 is provided in the vicinity of the end portion of thefirst carriage screw 112 a on the downstream side of the developer carriage direction. - When the plane on which the image forming apparatus A is set is inclined and therefore the two ends of the
development apparatus 103 in the axis direction of thedevelopment roller 114 are positioned at different heights, the surface of the stored developer is inclined with respect to thedeveloper container 111. If this inclination occurs in the structure in which thedeveloper outlet 121 is provided in the axis direction end of thedevelopment roller 114, the developer amount in thedeveloper container 111 decreases when thedeveloper outlet 121 is provided in a lower portion. On the other hand, when thedeveloper outlet 121 is provided in an upper portion, the developer amount in thedeveloper container 111 increases. The amount of developer is thus not stable in either case. - In view of this drawback,
FIG. 5 shows anotherpreferable development apparatus 103A in which thefirst regulation member 141 is provided in the central portion of thefirst carriage screw 112 a, in other words, in the central portion of the first carriage path C. - As shown in
FIG. 5 , the first regulation member is provided in the central portion of the carriage path of the first stirring/carrying member, and thedeveloper outlet 121 and thedeveloper supply inlet 120 are also provided in the central portion. This structure has less influence of inclination of thedevelopment apparatus 103, and therefore more stable even under inclination of the apparatus. - As described, a development apparatus according to the present invention comprises: a developer container for containing developer made of carrier and toner, said developer container having an opening opposite an electrostatic latent image carrier, a developer supply inlet through which new developer including carrier is supplied, and a developer outlet through which developer is discharged; a developer carrier for holding and carrying developer, rotatably positioned in a portion facing to the opening of said developer container; a developer stirring/carrying mechanism, rotatably provided in a rear side of said developer carrier, for carrying the developer into a direction in parallel to an axis of the developer carrier, while stirring the developer; and a first regulation member for regulating an upper surface of developer, provided on an adjacent and downstream portion with respect to said developer outlet in terms of travel direction of developer carried by said developer stirring/carrying mechanism.
- With this arrangement having a first regulation member, the upper surface of the developer carried by the first stirring/carrying member is regulated, and only the part passing below the first regulation member is carried to the downstream side. Therefore, in the upstream portion of the first regulation member in the developer carriage direction, the developer blocked by the first regulation member is accumulated, and the upper surface of the developer increases. Since the first regulation member and the developer outlet are adjacent to each other, the developer with the increased surface overflows, and is discharged from the developer outlet.
- The amount of developer passing through the first regulation member is constant regardless of the amount of developer stored in the developer container. Therefore, the increase in amount of extra developer in the developer container proportionally increases the height of upper surface of the developer blocked and accumulated in the developer container.
- Moreover, in the downstream of the first regulation member in the developer carriage direction, the amount of developer is regulated by the first regulation member, and therefore is basically constant even though the amount varies due to supply or consumption during the return travel to the upstream of the first regulation member. The change in height of upper surface of the developer container due to the increase in developer amount thus appears intensively in the upstream portion of the first regulation member in the developer carriage direction.
- Therefore, even if the change in height of upper surface is small for the whole developer container, it appears intensively in a certain point, and therefore appears as a large change in surface height in the vicinity of the developer outlet. Consequently, it becomes possible to discharge the extra developer right away from the developer outlet. The developer amount in the developer container is thus kept within an appropriate range.
- Moreover, since the surface projection of extra developer is caused by the blockage of developer by the first regulation member, it is not easily affected by other parameters than the developer amount (such as the developer fluidity etc.), compared with the projection formed by a stirring wing of the carriage screw. Therefore, in spite of slight variation due to the developer fluidity, the height of the projection proportionally increases with an increase of extra developer, that is it proportionally decreases with a decrease of extra developer. This arrangement allows not only quick discharge of extra developer, but also suppressing influence of developer fluidity etc., thereby maintaining the developer amount in the developer container within an appropriate range.
- Further, in the area outside the developer accumulation region in the upstream of the first regulation member, the surface height of the developer is kept constant. Therefore, the development is securely performed with stable stirring performance and development performance, including the time period until the extra developer overflows and is discharged.
- Another development apparatus according to the present invention comprises: a developer container for containing developer made of carrier and toner, said developer container having an opening opposite an electrostatic latent image carrier, a developer supply inlet through which new developer including carrier is supplied, and a developer outlet through which developer is discharged; a developer carrier for holding and carrying developer, rotatably positioned in a portion facing to the opening of said developer container; a developer stirring/carrying mechanism, rotatably provided in a rear side of said developer carrier, for carrying the developer into a direction in parallel to an axis of the developer carrier, while stirring the developer, said developer stirring/carrying mechanism having first and second stirring/carrying members and a partition plate for separating the first and second stirring/carrying members except for ends of said first and second stirring/carrying members; and a first regulation member for regulating an upper surface of developer, provided in a carriage path of the first stirring/carrying member which resides in a portion more distant from said developer carrier then the second stirring/carrying member, said developer outlet is formed on an adjacent and upstream portion with respect to said first regulation member in terms of travel direction of developer.
- In this structure, the developer stirring/carrying mechanism is constituted of first and second stirring/carrying members and a partition plate for separating the first and second stirring/carrying members except for ends of said first and second stirring/carrying members. The provision of first and second stirring/carrying member enables circulation carriage, and the partition plate allows the two carriage paths to be separated. The efficiencies of stirring and carriage thus increase. In this structure, the first regulation member is provided in a carriage path of the first stirring/carrying member which is more distant from the developer carrier than the second stirring/carrying member. This structure thus ensures the same effect as that of the foregoing development apparatus.
- In this development apparatus, the first regulation member is preferably provided in the vicinity of an upstream end of the carriage path of the first stirring/carrying member in terms of travel direction of developer. In this structure, stirring and carriage by the first stirring/carrying member may be performed with the constant amount of developer in the entire part of the stirring/carriage path. Therefore, the development is securely performed with stable stirring performance and development performance, compared with the structure in which the first regulation member is provided in the vicinity of the end portion of the first stirring/carrying member on the downstream side of the developer carriage direction.
- It is also preferable that said first regulation member is provided in a center of the carrier path of said first stirring/carrying member.
- When the plane on which the image forming apparatus is set is inclined and therefore the two ends of the development apparatus in the axis direction of the development roller are positioned at different heights, the surface of the stored developer is inclined with respect to the developer container. If this inclination occurs in the structure in which the developer outlet is provided in the axis direction end of the development roller, the developer amount in the developer container decreases when the developer outlet is provided in a lower portion. On the other hand, when the developer outlet is provided in an upper portion, the developer amount in the developer container increases. The amount of developer is thus not stable in either case. Therefore, the foregoing structure in which the first regulation member is provided in the central portion of the carriage path of the first stirring/carrying member is subjected to less influence of inclination of the development apparatus, and therefore is more stable under inclination of the apparatus.
- The foregoing development apparatus according to the present invention is preferably further arranged so that said developer supply inlet is provided in a portion more downstream than said first regulation member in the carriage path of said first stirring/carrying member in terms of travel direction of developer.
- With this arrangement, the newly supplied developer reaches the developer outlet after mixed with the existing developer. Therefore, the discharge amount of newly supplied developer is reduced, that is, the content of used developer in the discharged developer increases. Also, the position close to the first regulation member needs a longer time to reach the developer outlet, and the stirring time can be increased.
- Further, in the structure in which said developer supply inlet is provided in a portion more downstream than said first regulation member in terms of travel direction of developer, it is possible to further provide a second regulation member for regulating a surface of developer, in a portion more downstream than said developer supply inlet in the carriage path of said first stirring/carrying member in terms of travel direction of developer.
- With this arrangement, the amount of stirred and carried developer is kept constant by the second regulation member even after new developer is supplied. Further, it is possible to mix the new developer with the existing developer being stirred and carried.
- Said first and second regulation members includes a circular arc plane extending along an external shape of the stirring/carrying member when the stirring/carrying member is rotated. With this arrangement, it is not necessary to provide to the stirring/carrying member some kind of mechanism for avoiding interference with the first or second regulation member.
- An image forming apparatus according to the present invention includes the foregoing development apparatus of the present invention.
- The present invention thus provides a certain effect of provision of a development apparatus capable of maintaining appropriate amount of developer in the developer container by reducing influence of developer fluidity or the like. With stable stirring performance and development performance, the development apparatus of the present invention performs secure development, including the time period until the extra developer overflows and is discharged. The present invention also provides an image forming apparatus including the development apparatus.
- The present invention is not limited to the description of the embodiments above, but may be altered by a skilled person within the scope of the claims. An embodiment based on a proper combination of technical means disclosed in different embodiments is encompassed in the technical scope of the present invention.
- Though the developer supply used in the foregoing embodiment contains both carrier and toner at a predetermined proportion, the effect of the present invention can also be obtained with separate supply of carrier and toner.
- The embodiments and concrete examples of implementation discussed in the foregoing detailed explanation serve solely to illustrate the technical details of the present invention, which should not be narrowly interpreted within the limits of such embodiments and concrete examples, but rather may be applied in many variations within the spirit of the present invention, provided such variations do not exceed the scope of the patent claims set forth below.
Claims (10)
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2006-112781 | 2006-04-14 | ||
JP2006112781A JP4166795B2 (en) | 2006-04-14 | 2006-04-14 | Developing device and image forming apparatus including the same. |
Publications (2)
Publication Number | Publication Date |
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US20070242981A1 true US20070242981A1 (en) | 2007-10-18 |
US7536138B2 US7536138B2 (en) | 2009-05-19 |
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Application Number | Title | Priority Date | Filing Date |
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US11/783,503 Expired - Fee Related US7536138B2 (en) | 2006-04-14 | 2007-04-10 | Developer with developer level control, and image forming apparatus having same |
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US (1) | US7536138B2 (en) |
JP (1) | JP4166795B2 (en) |
CN (1) | CN100562810C (en) |
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US20090067886A1 (en) * | 2007-09-11 | 2009-03-12 | Nodera Kentarou | Developing device, process cartridge, and image forming apparatus |
US8027623B2 (en) * | 2007-09-11 | 2011-09-27 | Ricoh Company, Ltd. | Developing device, process cartridge, and image forming apparatus having a discharge port facing a section of a transport member without a screw part |
US20100054765A1 (en) * | 2008-09-02 | 2010-03-04 | Kabushiki Kaisha Toshiba | Developing device |
CN103838109A (en) * | 2012-11-22 | 2014-06-04 | 京瓷办公信息系统株式会社 | Developing apparatus and image forming apparatus having same |
US8942600B2 (en) | 2012-11-22 | 2015-01-27 | Kyocera Document Solutions Inc. | Developing apparatus and image forming apparatus |
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US20170176888A1 (en) * | 2015-12-17 | 2017-06-22 | Fuji Xerox Co., Ltd. | Developing device and image forming apparatus |
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Also Published As
Publication number | Publication date |
---|---|
CN100562810C (en) | 2009-11-25 |
JP4166795B2 (en) | 2008-10-15 |
CN101055453A (en) | 2007-10-17 |
JP2007286290A (en) | 2007-11-01 |
US7536138B2 (en) | 2009-05-19 |
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